KR20060131304A - Shoe of swahsh plate type compressor - Google Patents

Abstract

A shoe of swash plate type compressor is provided to improve the sliable contact by realizing smooth lubrication between the shoe and a swash plate, or the shoe and a piston, and prevent lowering of the durability of the shoe by easily discharging alien substances by forming a chamfered part between an outer peripheral part and a swash plate contact part of the shoe. A shoe of a swash plate type compressor is placed between a piston and a swash plate. The shoe is formed of a spherical part(710) slidably combined with a concave spherical part of the piston when the shoe is seen from a longitudinal section, and a flat swash plate contact part sliably contacting with the swash plate at an opposite side of the spherical part. A plurality of concave parts(740) are formed along an outer peripheral part(730) between the spherical part and the swash plate contact part.

Description

Shoe of swash plate compressor {SHOE OF SWAHSH PLATE TYPE COMPRESSOR}

1 is a longitudinal sectional view showing the structure of a general swash plate compressor.

2 is a cross-sectional view showing a shoe of a general swash plate type compressor.

3 is a view showing the shoe of the swash plate compressor according to the present invention, (a) is a front perspective view, (b) is a rear perspective view.

4 is a view showing a shoe of a swash plate compressor according to the present invention, (a) is a front view, (b) is a side view, and (c) is a rear view.

5 is a cross-sectional view of the shoe of the swash plate compressor according to the present invention, (a) is a cross-sectional view taken along line A-A in FIG. 4 (b), and (b) is a cross-sectional view taken along line B-B.

6 is a side view showing the lubrication principle between the shoe and the piston of the swash plate compressor according to the present invention.

7 is a view showing the lubrication principle between the shoe and the swash plate of the swash plate compressor according to the present invention, (a) is a front view, (b) is a side cross-sectional view.

8 is a view showing the principle of removing foreign matter between the shoe and the swash plate of the swash plate compressor according to the present invention, (a) is a side view, (b) is a front view.

※ Explanation of Major Drawings

50. Saphan

700 ... shoe

710. Spherical section of the shoe

720. Swash plate contact of shoe

730. The outer circumference of the shoe

740 ... recess of shoe

750 ... Shoe Chamfer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shoe of a swash plate type compressor, and more particularly, to a shoe of a swash plate type compressor which improves sliding contactability by smoothing lubrication in the spherical portion and the swash plate contact portion and preventing foreign matter from entering the contact surface with the swash plate. will be.

Figure 1 shows the structure of a typical swash plate compressor that compresses gas by reciprocating piston.

As shown, the conventional swash plate type compressor has a cylinder block 10 having a plurality of cylinder bores 12 formed in parallel in a longitudinal direction on an inner circumferential surface thereof, and a front sealingly coupled to the front of the cylinder block 10. It consists of a housing 16 and a rear housing 18 which is hermetically coupled via a valve plate 20 to the rear of the cylinder block 10.

A swash plate chamber 86 is provided inside the front housing 16, and one end of the drive shaft 44 is rotatably supported near the center of the front housing 16, while the other end of the drive shaft 44 is It passes through the swash plate chamber 86 and is supported through the bearing installed in the cylinder block 10.

In addition, the drive shaft 44 is provided with a lug plate 54 and a swash plate 50.

In the lug plate 54, a pair of power transmission support arms 62 each having a linearly perforated guide hole 64 formed at the center thereof are formed to protrude integrally on one surface, and one surface of the swash plate 50 has a ball. As the lug plate 54 rotates, the ball 66 of the swash plate 50 slides in the guide hole 64 of the lug plate 54 so that the swash plate 50 can be rotated. The inclination angle is variable.

In addition, the outer circumferential surface of the swash plate 50 is fitted to the piston 14 so as to be able to slide through the shoe 700.

Therefore, as the swash plate 50 rotates in an inclined state, the pistons 14 inserted through the shoe 700 on the outer circumferential surface thereof are reciprocated in each cylinder bore 12 of the cylinder block 10. do.

In addition, a suction chamber 22 and a discharge chamber 24 are respectively formed in the rear housing 18, and each cylinder bore is provided in the valve plate 20 interposed between the rear housing 18 and the cylinder block 10. A suction port 32 and a discharge port 36 are respectively formed in a position corresponding to (12).

The shoe 700 is required to have excellent sliding contactability as a part provided on the piston 14 to slide the swash plate 50. In addition, the external refrigerant circuit of the swash plate type compressor contains grinding debris and wear powder during the machining of parts, and such foreign matter is contained between the swash plate 50 and the shoe 700, which may adversely affect sliding contact. have.

As shown in FIG. 2, a conventional shoe 700 is composed of a bottom surface 700a and a spherical surface 700b in contact with a swash plate. In particular, since the conventional shoe 700 is configured in a simple curved shape, the outer circumferential portion is slippery due to poor foreign matter discharge performance between the swash plate and the shoe, or the piston and the shoe, and the wear caused by the foreign matter and lubrication is not smooth. Performance was often very poor.

In addition, since the portion where the spherical surface and the swash plate contact portion is very sharp, there is a problem that the concentrated stress is generated in the forging die for forming the shoe and the durability is poor.

The present invention has been made to solve the above problems, an object of the invention is to provide a smooth lubrication in the spherical portion which is the contact surface with the piston and to increase the durability by not containing foreign matter between the shoe and the swash plate of the swash plate compressor To provide a shoe.

In order to achieve the above object, the shoe of the swash plate compressor according to the present invention,

A swash plate compressor comprising a spherical portion which is located between the piston and the swash plate, and when viewed from the longitudinal section, is provided with a spherical portion that is capable of sliding contact with the concave spherical portion of the piston, and a flat swash plate contact portion in sliding contact with the swash plate on the opposite side of the spherical portion. In shoe,

A plurality of recesses are formed along the outer circumferential portion between the spherical portion and the swash plate contact portion.

Here, it is preferable that the said recessed part is formed with the spherical groove extended from the bottom toward the apex of the said spherical part by a predetermined length.

And it is preferable that the bottom part of the recessed part is smoothly connected by the curved surface from the outer peripheral part and the swash plate contact part.

On the other hand, it is preferable that the chamfer is formed between the outer peripheral portion and the swash plate contact portion.

In addition, the chamfer portion and the swash plate contact portion preferably has a shape that is smoothly connected by a curved surface.

At this time, the inclination angle with respect to the swash plate contact portion of the chamfer portion has a value in the range of 5 ~ 45 °, the depth of the chamfer is preferably formed to be 5㎛ or more, less than the coating film thickness of the swash plate.

In addition, the bottom groove portion is preferably formed in the center of the swash plate contact portion.

Hereinafter, with reference to the accompanying Figures 3 to 8 will be described in detail a preferred embodiment of the present invention. Reference numerals of the compressor components in the conventional and common configuration refer to FIGS. 1 and 2.

As shown, the shoe 700 of the swash plate compressor is located between the piston 15 and the swash plate 50, and when viewed from the longitudinal section, sliding contact is possible to the concave spherical portion of the piston 15. It consists of a spherical surface portion 710 and a flat swash plate contact portion 720 formed on the opposite side of the spherical surface portion 710 in contact with the swash plate 50.

Between the spherical portion 710 and the swash plate contact portion 720, it is preferable that the outer peripheral portion 730 formed of a smooth curved surface is interposed. When configured in this way, foreign matter discharge from the swash plate 50 and the swash plate contact portion 720 is made more smoothly.

In addition, a plurality of concave portions 740 are formed in the outer peripheral portion 730 between the spherical portion 710 and the swash plate contact portion 720.

During operation of the compressor, lubricating oil is first collected in the concave portion 740 and supplied to the concave spherical portion 14a of the swash plate 50 and the piston 14.

Further, the recess 740 is formed with a spherical groove 745 extending from the bottom 741 of the recess 740 toward the vertex 715 of the spherical portion 710 by a predetermined length. The lubricating oil supply between the spherical part 710 and the concave spherical part 14a of the piston 14 is made more smoothly. The extension length of the spherical groove 745 is difficult to clearly indicate numerically, the spherical portion 710 in contact with the end of the concave spherical portion 14a formed in the piston 14 at the maximum inclination angle position of the swash plate 50. ) To the point.

The bottom portion of the concave portion 740 has a shape that is smoothly connected by the curved surface from the outer peripheral portion 730 and the swash plate contact portion 720. Accordingly, since the surface of the spherical portion 710 and the bottom portion 720 of the shoe 700 is not sharp, wear of the piston 14 and the swash plate 50 can be prevented, as well as the spherical portion 710 and the piston ( 14), the lubrication between the bottom portion 720 and the swash plate 50 is smooth.

On the other hand, a chamfer 750 is formed between the outer peripheral portion 730 and the swash plate contact portion 720. As a result, the removal of foreign matter caught between the swash plate 50 and the shoe 700 becomes easier and the lubrication effect is also excellent.

At this time, the inclination angle of the chamfer portion 750 with respect to the swash plate contact portion 720 has a value in the range of 5 ~ 45 °, the depth of the chamfer 750 is 5㎛ or more, the coating film thickness of the swash plate 50 or less Is formed. Accordingly, foreign matters exceeding the thickness of the coating film of the swash plate 50 are blocked from entering, and foreign substances having the same size or less are induced to be easily introduced and discharged. In addition, if the size of the inclination angle is maintained in the above-described range, foreign matters that are small enough to not affect wear and foreign matters that are too large can be excluded.

Furthermore, the chamfer 750 and the swash plate contact portion 720 are connected by a curved surface, and the curved surface has the same curvature as the curved surface connecting the bottom of the recess 740 and the swash plate contact portion 720. .

In addition, the bottom groove portion 725 is formed in the center of the swash plate contact portion 720, thereby lubricating more effectively.

Hereinafter, the operation according to the present embodiment will be described.

6 and 7 show the principle of lubrication between the shoe and the piston of the swash plate compressor according to the present invention.

As shown in FIG. 6, a space A is formed between the concave spherical portion 14a of the piston 14 and the concave portion 740 of the shoe during operation, which serves as a temporary storage portion for lubricating oil to be collected. It also serves as a guide for supplying lubricating oil between the spherical portion 710 and the concave spherical portion 14a. Thereby, lubricating oil supply is smooth between the recessed spherical part 14a of the piston 14 and the recessed part 740 of the shoe.

Furthermore, since the spherical groove 745 of the recessed portion 740 extends only a predetermined length toward the apex 715 of the spherical portion 710, even if the inclination angle of the swash plate 50 is maximized, the recessed portion of the piston 14 is increased. The end point of the spherical surface portion 14a and the spherical surface portion 710 of the shoe 700 may contact each other, and the durability of the shoe 700 may not decrease.

In addition, as shown in FIG. 7, lubricant flowing from the spherical surface 710 of the shoe 700 and lubricant flowing on the swash plate 50 surface may be formed in the recess 740 formed in the outer circumferential portion 730 of the shoe 700. Gathered and supplied between the swash plate contact portion 720 and the swash plate 50 of the shoe 700, the supply of lubricating oil is more smooth.

On the other hand, Figure 8 shows the principle of removing foreign matter between the shoe and the swash plate of the swash plate compressor according to the present invention.

As described above, according to the present invention, a chamfer 750 is formed between the outer circumferential portion 730 and the swash plate contact portion 720 of the shoe 700. Accordingly, when foreign matter of a predetermined size is interposed between the chamfer 750 and the swash plate 50, the foreign matter is circumferentially along the outer circumferential surface of the shoe 700 by the relative rotation of the shoe 700 and the swash plate 50. While moving to, when foreign matter comes to the recess 740 is naturally discharged.

According to the present invention having the above-described configuration, since a plurality of recesses are formed in the outer peripheral portion between the spherical portion and the swash plate contact portion of the shoe, the lubrication action between the shoe and the swash plate or the shoe and the piston is very smooth, and the sliding contactability Greatly improved.

In addition, the chamfer portion is formed between the outer peripheral portion and the swash plate contact portion of the shoe, foreign matter having a predetermined range of size can be easily discharged to prevent the durability of the shoe.

Claims (7)

A swash plate compressor comprising a spherical portion which is located between the piston and the swash plate, and when viewed from the longitudinal section, is provided with a spherical portion that is capable of sliding contact with the concave spherical portion of the piston, and a flat swash plate contact portion in sliding contact with the swash plate on the opposite side of the spherical portion. In shoe, Shoe of the swash plate type compressor, characterized in that a plurality of concave portion 740 is formed along the outer peripheral portion (730) between the spherical portion (710) and the swash plate contact portion (720). The method of claim 1, The concave portion 740 has a spherical groove 745 extending from the bottom 741 toward a vertex 715 of the spherical portion 710 by a predetermined length. . The method of claim 2, The concave portion 740 bottom 741 is a shoe of the swash plate type compressor, characterized in that smoothly connected by a curved surface from the outer peripheral portion 730 and the swash plate contact portion (720). The method according to any one of claims 1 to 3, Shoe of the swash plate type compressor, characterized in that the chamfer 750 is formed between the outer peripheral portion 730 and the swash plate contact portion 720. The method of claim 4, wherein Shoe of the swash plate compressor, characterized in that the chamfered portion 750 and the swash plate contact portion 720 is connected by a curved surface. The method of claim 4, wherein The inclination angle of the chamfer portion 750 with respect to the swash plate contact portion 720 has a value in the range of 5 to 45 °, the depth of the chamfer portion 750 is 5㎛ or more, characterized in that formed below the coating film thickness of the swash plate Shoe of the compressor. The method of claim 4, wherein Shoe of the swash plate compressor, characterized in that the bottom groove portion 725 is formed in the center of the swash plate contact portion (720).

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